List

User ID Full Name Working Group Institution Affiliation Position Country ORCID Linked In Other social media Up to 5 key word for your research 3-5 sentences of your key areas of research: Expertise and facilities: Please add onevpaper citation (with doi, please) that highlights your research: What experiments, simulations, or knowledge transfer opportunities would you like to learn? Are you open to hosting researchers? Can you be contacted by other COST members? What experiments, simulations, or knowledge transfer opportunities can you offer? What duration(s) of stay would be feasible? (optional) What time(s) of year would be best feasible? (optional)
1 admin The field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
98 ahmed-uluca WG1Trinity College DublinSchool of Physics, CRANN/AMBER InstitutePhD studentIreland0000-0002-8757-655Xhttps://www.linkedin.com/in/ahmed-ulucaThe field is emptySuperlubricity, interfacial shear strength, 2D materials, nanomechanicsI used and developed scanning probe techniques for surface characterization. I extended my research on Nanoindentation to investigate thermal contact conductance in microscale. I investigate superlubricity for my PhD with a 2D nanoindenter.Nanoindentation, scanning probe microscopy, raman spectroscopy, chemical vapor deposition, physical vapor depositionThe field is emptyI'd like to see any other work on the measurements of shear properties. Also, In-situ microscopy techniques for nanomechanical measurements looks interesting to me.NoYes2D indentation for interfacial shear strength and shear modulus with different tip shapes and materials. AFM studies with QNM and friction options.The field is emptyThe field is empty
19 aleksija WG5University of East SarajevoThe field is emptyThe field is emptyBosnia and HerzegovinaThe field is emptyhttps://ba.linkedin.com/in/aleksija-djuric-ab9649237The field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
31 alizarrabi -İstinye ÜniversitesiFaculty of Engineering & Natural SciencesAssociate ProfessorTurkey0000-0003-0391-1769https://www.linkedin.com/in/alizarrabi/The field is emptyNanomedicine; Drug delivery systemsThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
50 amit-k-chattopadhyay 2 and 4Aston UniversityAston UniversityReader in MathematicsUnited Kingdom0000-0001-5499-6008https://www.linkedin.com/in/amit-chattopadhyay-475a3321/The field is emptyComplex Systems; Mathematical ModellingExpertise of applications of a) Mathematical Modelling of continuum systems; b) Data Assisted Stochastic Mathematics and Modelling; c) Statistical Physics and Machine Learning applications in stochastic processes in Biology, Bioinformatics, Materials.Continuum modelling Data modelling Stochastic mathematics Applications of Machine Learning Access to local clusters and Midlands Supercomputing Cluster SULIS1) Nature Communications 11, 6345; https://www.nature.com/articles/s41467-020-20201-4 2) Nature Scientific Reports 10, 4090; https://www.nature.com/articles/s41598-020-60786-w 3) Nature Scientific Reports 11, 11606 (2021); DOI: 10.1038/s41598-021-90698-2I would welcome all experimental inputsYesYesI can offer KT options in a) Stochastic modelling b) Data modelling, including ML based simulations and PDE based modelling7-14 days at a stretchFebruary-August
77 anna-kareer 2University of OxfordDepartment of MaterialsResearch FellowUnited kingdom0000-0002-1065-2411The field is emptyThe field is emptyNanoindentation, Nanoscarcth, Micromechanical testing, EBSDI develop novel micromechanical testing techniques to study the mechanical properties of structural nuclear materials. I am also interested in using micromechanical techniques to understand the deformation mechanisms of wear.Nanoindentation, Nanoscratch, EBSD, FIB Crystal plasticity finite element methodshttps://doi.org/10.1016/j.actamat.2020.08.051electrochemical methods.YesYesCPFE modelling, HR-EBSDThe field is emptyThe field is empty
27 annaunimib The field is emptyUniversità degli Studi di Milano-BicoccaThe field is emptyThe field is emptyItalyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
70 avraam-konstantinidis WG1, WG2Aristotle University of ThessalonikiLaboratory of Engineering MechanicsAssoc. ProfessorGreece0000-0001-9302-9563https://www.linkedin.com/in/avraam-konstantinidis-493105bb/?originalSubdomain=grThe field is emptyNanoindentation, Confocal Microscopy, Microtension, Gradient elasticity/plasticity, StochasticityTheoretical modeling using gradient elasticity/plasticity models. Implementaion of hybrid (gradient -stochastic) models in cellular automata simulations at various scales. Nanoindentation / microtensile tests, AFM /, Confocal Microscopy measurements.Ultra-nano Indenter Agilent G200. Microtensile Tester Agilent UTM150. CSM Nanoindentation Tester/NHT. VEECO Multimode IIID Atomic Force Microscope (AFM). Optical Microscope Leica DM2500 M. Sputter Coater Leica EM ACE600. Confocal Microscope Leica DCM.Kampouris A.K., Lappas K.-I., Konstantinidis A.A. and Aifantis E.C., 3-Dimensional strain/stress fields in Berkovich/Vickers indentation: Comparisons with thin film delamination & shear band formation, 2023. [DOI: 10.1615/NanoSciTechnolIntJ.2021040335]Complementary topics to my research.YesYesHybrid Gradient-stochastic cellular automata simulations. Nanoindentation experiments. Atomic force microscopy measurements. Confocal microscopy measurements. Metal/Carbon coatings.The field is emptyThe field is empty
42 ben-beake The field is emptyThe field is emptyThe field is emptyThe field is emptyUnited KingdomThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
44 benoit-merle ChairInstitute of Materials EngineeringUniversity of KasselProf.Germanyhttps://orcid.org/0000-0002-9562-1429https://www.linkedin.com/in/prof-dr-benoit-merle-547baa69/https://uni-kassel.de/go/mbmThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
2 branka The field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
317 calliedeamer82 calliedeamer82calliedeamer82calliedeamer82calliedeamer82Austriacalliedeamer82calliedeamer82calliedeamer82calliedeamer82calliedeamer82calliedeamer82calliedeamer82calliedeamer82NoNocalliedeamer82calliedeamer82calliedeamer82
72 cornet WG2LMPSCNRSResearch engineerFrance0000-0001-7699-5583The field is emptyThe field is emptySEM-FIB; in situ experiment; Nanoindentation; The field is emptySEM-FIB : Helios Nanolab 660
in situ mechanical experiment (SEM): Homemade testing device
The field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
36 daniel-kiener The field is emptyUniversity of LeobenMontanuniversität LeobenProfessor for Micro- & Nanomechanics of MaterialsAustria0000-0003-3715-3986The field is emptyThe field is emptyin situ electron microscopy; micro- & nanomechanics; size effects; dislocation plasticityUnderstanding the basic mechanism that govern the unusual and sometimes quite unique deformation and fracture properties of nanostructured materials and nanoscale volumes. My main method to identify these processes is to perform miniaturized quantitativeThe field is empty100 years after Griffith: From brittle bulk fracture to failure in 2D materials MRS Bulletin, 2022, 47, 792 (open access) D. Kiener, S.M. Han DOI: 10.1557/s43577-022-00379-2Collaboration with modeling on the same length scales.YesYesIn situ nanoindenters for deformation and failure experiments in SEM and TEM microscopesThe field is emptyThe field is empty
20 diletta WG1Eindhoven University of Technology The field is emptyThe field is emptyNetherlandsThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
65 domingoramsey domingoramseydomingoramseydomingoramseydomingoramseyNetherlandsdomingoramseydomingoramseydomingoramseydomingoramseydomingoramseydomingoramseydomingoramseydomingoramseyNoNodomingoramseydomingoramseydomingoramsey
225 edoardo-rossi 1, 2, 4Università degli Studi Roma TreDepartment of Civil, Computer Science and Aeronautical Technologies EngineeringAssistant ProfessorItaly0000-0001-8194-5329https://www.linkedin.com/in/edoardo-rossi-58b85a241/https://www.researchgate.net/profile/Edoardo-Rossi-4Advanced Ceramics, Residual Stresses, nanomechanical characterization, TPP-DLW 3D printingMy research activities are focused on the characterization and modelling of nano-engineered materials, surfaces, and their interplayed role, along with environmental parameters, in determining materials performances.Dual Beam Microscopy (FIB-SEM) in-SITU nanoindentation TPP-DLW 3D printing X-Ray diffractometry Physical Vapour Deposition10.1016/j.scriptamat.2020.113684Materials Informatics (machine learning and big data analytics), pillar-compression, micro-cantilever bending, Artificial Intelligence applied to microscopy image recognitionYesYesFracture Toughness in micro-specimens, Residual stress analysis at the micro-scale in coatings and bulk materials, high-speed nanoindentation mapping, TEM analysis, X-Ray spectroscopy, surface free energy.2 monthsJune, July
38 flavio-abreu-araujo The field is emptyUniversité catholique de LouvainUniversité catholique de LouvainProfessor & FNRS Research AssociateBelgium0000-0001-7157-3197https://www.linkedin.com/in/flavioabar/The field is emptyneuromorphics, spintronics, artificial intelligenceThe field is emptyThe field is emptyThe field is emptyThe field is emptyNoYesThe field is emptyThe field is emptyThe field is empty
51 frederik-van-loock 1 and 2TU EindhovenTU EindhovenAssistant ProfessorNetherlands0000-0003-0581-2238https://www.linkedin.com/in/fvanloock/The field is emptyPolymers; composites; micromechanics; fracture;Processing-structure-property relations 1. of polymers and polymer-based composites 2. Micromechanics and mesoscale constitutive modelling of polymers 3. Fracture, fatigue and impact properties of polymer blends and thermoplastic composites- Mechanical testing of polymers and composites (dynamical, static, with and w/o environmental chambers, ...) - Constitutive models for amorphous and semi-crystalline polymershttps://doi.org/10.1016/j.ijplas.2021.103079Micro/nano mechanical testing of polymer composites.YesYes- Experiments include: slow crack growth of polymer matrices, impact tests, mechanical tests at selected environmental conditions, etc - Simulations include: shear transformation mesoscale model, Eindhoven Glassy Polymer continuum model, etcThe field is emptyThe field is empty
4 gabrielle-tiphene WG5Ecole Centrale de Lyon | ECL The field is emptyThe field is emptyFranceThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
52 gregor-hlawacek WG3, WG5Helmholtz-Zentrum Dresden-RossendorfInstitute for Ion Beam Physics and Materials ResearchGroup LeaderGermany0000-0001-7192-716Xhttps://www.linkedin.com/in/gregorhlawacek/The field is emptyFocused Ion Beam, Materials Science,Development and application of advanced Focused Ion Beams. My group develops new applications and the necessary instrumentation based on helium ion microscopy, liquid metal alloy focused ion beams and gas plasma focused ion beams.-3 Helium Ion Microscopes (in-siut heating and electrical analysis, STIM, SIMS) - 2 mass filtered LMAIS FIB for the use with various metal and semiconductor ions (one on an UHV chamber) - mass filtered ECR plasma FIB on a UHV chamber (SEM for navigation)https://doi.org/10.48550/arXiv.2305.19631In-situ mechanical testingYesYesFIB sample prep, spatial resolved irradiation of samples, local defect fabrication, ...The field is emptyThe field is empty
16 habibpouriayevali The field is emptyThe field is emptyThe field is emptyThe field is emptyGermanyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
10 hayat WG1, WG2University of Warwick University of Warwick Project EngineerUnited Kingdomhttps://orcid.org/0000-0002-4228-5986https://www.linkedin.com/in/qamar-hayat-6a872524/?originalSubdomain=ukThe field is emptySize effects, Nanoindentation, Laser Processing The field is emptyThe field is emptyThe field is emptyNanoindentation, AFM, EBSD, SEM, FIBNoYesNanoindentation, AFM, EBSD, SEM, FIBThe field is emptyThe field is empty
28 hendrikholz The field is emptyInstitute for Iron research in Düsseldorf.The field is emptyThe field is emptyGermanyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
54 henry-ovri WG2Helmholtz Zentrum HereonHelmholtz Zentrum HereonDeputy head, Dept. of Experimental Materials mechanicsGermany0000-0002-2731-4814The field is emptyThe field is emptyNanoindentation; light weight alloys; plastic instability; microstructural characterizationStructure-property relationships in metallic materials; small-scale plasticity; Unravelling micromechanisms underlying plastic instability and metallic materials responseEx situ/ in situ nanoindentation SEM/TEM characterization FIB milling Devices: Hysitron TI 980 & PI 95, KLA NanoFlip; Helios G4 PFIB; Talos F200ihttps://doi.org/10.1016/j.jma.2023.02.004The field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
88 ivanovic-arsogmail-com 3,4,5University of MontenegroThe field is emptyPhD studentMontenegro0000-0001-5150-7811https://www.linkedin.com/in/arso-ivanovic-154270166/The field is emptynanophysics, nanotechnology, memristorsI'm studying nano-sized memristors( memory resistors) with application to so-called neuromorphic computing.electrical characterization techniques and microscopy, work at INRiM.The field is emptyI'm open to learning different things, but staying mostly within physics.The field is emptyYesI have acquired various skills over the years, and now my knowledge is spreading to other disciplines, due to interdisciplinary nature of research.The field is emptyThe field is empty
43 jan-pribyl The field is emptyThe field is emptyThe field is emptyThe field is emptyCzech RepublicThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
25 jaroslav-cech The field is emptyThe field is emptyThe field is emptyThe field is emptyCzech RepublicThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
39 jeff-wheeler The field is emptyThe field is emptyETH ZurichVisiting ScientistSwitzerland0000-0001-7763-2610https://www.linkedin.com/in/jeff-wheeler-284aa625/The field is emptyin situ, nanoindentation, mapping, size effects, high temperatureThe field is emptyThe field is emptyThe field is emptyThe field is emptyNoYesThe field is emptyThe field is emptyThe field is empty
277 jelena-srnec-novak WG2Univeristy of Rijeka, CroatiaUniversity of Rijeka - Faculty of EngineeringAssistant professorCroatiahttps://orcid.org/0000-0001-5866-3622https://www.linkedin.com/in/jelena-srnec-novak/The field is emptymaterial modeling, material calibration, nanoindentation, finite element analysisAdditive manufacturing (AM) of metallic materials has gained recently significant popularity thanks to the fact that it enables high geometrical complexity, extreme structural optimization and rapid product development. Consequently, a systematic researchMy expertise is in material characterization, nonlinear material modelling, numerical simulation of nanoindentation process, finite element analysisSrnec Novak, Jelena ; Pelegatti, Marco ; Kamenar, Ervin ; Zelenika, Saša ; De Bona, Francesco Experimental investigation of mechanical properties of the AISI 316L stainless steel: macro- and microscale, EUSPEN, 2023. str. 67-70I’m open to learn new method, testing procedure etc.YesYesNanoindenation, finite element simulationsThe field is emptyThe field is empty
29 jirinohava The field is emptyLead Application Scientist at Anton Paar, Mechanical Surface Characterization Unit.The field is emptyThe field is emptyCzech RepublicThe field is emptyhttps://www.linkedin.com/in/jiri-nohava-a1170138/?originalSubdomain=chThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
49 jonathan-amodeo WG1, WG2CNRSIM2NP, Aix-Marseille Univ.CNRS researcherFrance0000-0003-0383-891Xhttps://www.linkedin.com/feed/The field is emptyNanomechanics, Simulation, DislocationMy main topic is multi-scale modeling of materials mechanical properties, with a particular focus on nanocrystals. In my research group, we perform atomistic and dislocation dynamics simulations to investigate the fundamentals of cristalline materials defThe field is empty[1]J. Amodeo, L. Pizzagalli, Modeling the mechanical properties of nanoparticles: a review, Comptes Rendus Physique. 22 (2021) 1–32. https://doi.org/10.5802/crphys.70.Experimental work at smals-scale : in situ TEM testing, SEM, nanoindentationYesYesMolecular Dynamics, Discrete Dislocation Dynamics, atomic-to-mesoscale models of plasticityThe field is emptyThe field is empty
66 jonathan-zimmerman 1, 2TechnionThe field is emptyDoctrate studentIsrael0000-0002-6475-5889The field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyNoYesThe field is emptyThe field is emptyThe field is empty
37 julien-guenole WG2The field is emptyCNRS, LEM3CNRS scientistFrance0000-0002-3288-8951https://www.linkedin.com/in/julien-guenole/http://www.julien-guenole.frplasticity, atomistic modelling, dislocations, irradiationExpert in atomistic modelling of defects and nanomechanical tests to understand plasticity mechanisms and radiation induced damage.Molecular statics & dynamics of plasticity, nano-mechanical tests and irradiation.
The field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
86 konrad-perzynski WG2AGH University of KrakowAGH University of Krakowassistant professorPoland0000-0001-7761-2599https://www.linkedin.com/in/konrad-perzyski-38564a3/-Modeling, multi-scale simulations, material science, thin films, fractureI specialise in multi-scale numerical modelling, in particular in the analysis of thin film structure and its impact on mechanical behaviour. I use techniques such as FEM and MD simulations. I study the influence of thin film structure on fracture.Software: Abaqus, Forge, Simufact, Ls-Dyna, Ansys, DigiMat, in-house solutions1. Perzyński K., Cios G., Madej L., Prediction of fracture evolution in the TiN/Al thin films based on a full–field modelling approach, International Journal of Solids and Structures, 283, 112473, 2023. DOI: 10.1016/j.ijsolstr.2023.112473role of local heterogeneities in determining material characteristicsYesYesFE modelling of nanoindentation, explicit representation of microstructural features, inverse analysis of nanoindentation results2-4 weeksJuly, September
55 laia-ortiz-membrado 2, 4Univeritat Politècnica de CatalunyaUPC-CIEFMAPhD studentSpain0000-0001-9646-3226www.linkedin.com/in/laia-ortiz-membrado-563130128The field is emptyNanoindentation, micro-mechanics, statisticsMy key areas are high-speed nanoindentation, statistical data treatment, and FIB-DIC technique, which are central to my Ph.D. specialization. I focus on the use of innovative methods for precise phase measurement.My expertise is in high-speed nanoindentation and the use of FIB. The two main equipment I use in our laboratory are: nanoindenter and FIB.I'm writing the paper about statistics and high-speed nanoindentation, but I have one interesting paper as co-author: https://doi.org/10.1016/j.jmatprotec.2023.118148Machine learningYesYesNanoindentation tests and FIB millingThe field is emptyThe field is empty
5 liang The field is emptyThe field is emptyThe field is emptyThe field is emptyChinaThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
140 lotvmubl SNOkvGRHLZdMKohbJDmSnXikYjhwKMguBNhGOlfPTZIbgcMFQSQkoDHfUrlJIpjzTCVKiFgmHvJOLsXRLDCxBVhlEaZdwhQFsxeqeFYEfrcGJHnozBtRsKUWlAYduxvSJdgfUtVYpWTikPYlCxHVALjdYHMXBzgbNoNoNMuAZnUgBTcmqkZEWDudbgsGzJBLKqZxtpWHReQB
85 lukasz-madej WG2AGH University of KrakowAGH University of KrakowprofessorPolska0000-0003-1032-6963https://www.linkedin.com/in/lukasz-madej-agh/-Modeling, multi-scale simulations, material science, microstructure, fractureMy main research interests are in the area of material digitalization, modelling of metal forming processes and metallic material systems, mechanics of materials.Software: Abaqus, Forge, Simufact, LsDyna, Ansys, DigiMat, in-house solutionsYanagimoto Y., Banabic D., Banu M., Madej L., Simulation of metal forming – Visualization of invisible phenomena in the digital era, CIRP Annals – Manufacturing Technology, 71, 2022, 599-622. https://doi.org/10.1016/j.cirp.2022.05.007Role of local heterogeneities in determining material characteristicsYesYesFE modelling of nanoindentation, explicit representation of microstructural features, inverse analysis of nanoindentation results2-4 weeksJune,September
78 maria-jesus-garcia-guimarey WG1 and WG5University of Santiago de CompostelaLaboratory of Thermophysical and Tribological Properties, Nafomat Group, Department of Applied Physics, Faculty of Physics and iMATUSPostdoctoral researcherSpain0000-0003-0483-4136www.linkedin.com/in/maría-jesús-garcía-guimareyThe field is emptyTribology, Lubrication, Wear, Friction, Nanoparticles, CoatingsMy main research area is focused on tribology, particularly in using nanomaterials in the lubricant’s formulation and coatings design, and their thermophysical and tribological characterization.Currently, my research focuses on the development of environmentally friendly nanolubricants with anti-friction and anti-wear potential.M.J.G. Guimarey (CA), C.R. Ratwani, K. Xie, M. Koohgilani, M. Hadfield, A.R. Kamali, A.M. Abdelkader. Multifunctional steel surface through the treatment with graphene and h-BN. Tribol. Int., 180 (2023), 108264. DOI: https://doi.org/10.1016/j.triboint.2Toxicity analysis of nanoparticles and size effects . Basic simulation that can help to better understand the wear mechanisms produced by nanoadditives in lubricated contacts. Possible knowlege transfer with automotive or lubricant companies.YesYesCharacterization of base lubricants, transmission fluids, nanoparticles and nanofluids Tribological and surface characterization (wear and friction) Volumetric and viscometric behaviour of lubricants or nanolubricants Thermal analysis1 monthBeginning of academic year (September) or end of academic year (June-July)
56 maria-watroba WG2Empa - Swiss Federal Laboratories for Materials Science and TechnologyEmpa, Swiss Federal Laboratories for Materials Science and Technology, Laboratory of Mechanics of Materials and Nanostructures, Feuerwerkerstrasse 39, CH-3602 Thun, SwitzerlandPostdoctoral ResearcherSwitzerlandhttps://orcid.org/0000-0003-4851-8899https://www.linkedin.com/in/maria-watroba/https://www.researchgate.net/profile/Maria-Watrobazinc alloys, plastic deformation, nanoindentation, microstructure, biodegradationDeveloping novel bioresorbable Zn-based metallic materials for potential biomedical applications. Carrying out materials characterization and testing using SEM-EBSD methods, macro and micromechanical testing, X-ray diffraction.* microscopic analysis * mechanical testing * corrosion tests * developing Zn-based materials employing various fabrication and plastic deformation technologies"...brittle multi-phase Zn alloys’ mechanical performance can be enhanced to provide sufficient plasticity by grain refinement through cold deformation process, followed by short-time annealing to restore proper strength" 10.1016/j.bioactmat.2021.03.017Different aspects of micromechanical testing (i.e. spherical nanoindentation )YesYesMicrostructure analysis: SEM-EDS-EBSD, Nanoindentation, Micropillars compression tests including FIB milling, Magnetron sputtering-based (PVD) combinatorial thin film deposition, Plastic deformation of Zn-based materials - knowledge1 week - 1 monthThe field is empty
32 mariarub The field is emptyThe field is emptyThe field is emptyThe field is emptyBulgariaThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
46 marie-stephane The field is emptyLouvain University BelgiumThe field is emptyThe field is emptyBelgiumThe field is emptyhttps://www.linkedin.com/in/marie-st%C3%A9phane-colla-1a957913/?originalSubdomain=beThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
100 markus-alfreider Micro- and NanomechanicsMontanuniversität LeobenMontanuniversität LeobenPost-DocAustria0000-0001-9562-4497The field is emptyThe field is emptyMicromechanical spectroscopy, Fracture, FatigueMethodological development of in situ micromechanical techniques. Dynamic fracture and fatigue measeurments as well as anelastic relaxation theory.Dynamic measurement setups. Analytical modelling of fracture mechanical problems. In situ systems (inside various Zeiss macroscopes): Femtotools NMT-04, Hysitron PI85, ASMEC UNAT-SEMRecent advances in nanomechanical and in situ testing techniques: Towards extreme conditions doi: 10.1016/j.cossms.2023.101108The field is emptyNoYesMicromechanical spectroscopy experiements on cantilever shaped specimens. In situ fracture, tensile and compression experiments.The field is emptyThe field is empty
99 martina-freund Sandra Korte-Kerzel1Institut für Metallkunde und Materialphysik, RWTH Aachen UniversityThe field is emptyPhD CandidateGermanyThe field is emptyThe field is emptyThe field is emptyLaves Phases, Plasticity, Nanoindentation, Micropillarcompression, TEMInvestigating the influence of the local chemistry and temperature on the forming Laves phases in Mg-Al-Ca system. Introducing plasticity by using nanomechanical methods. Correlative EBSD SE matching to evaluate the slip planes, Micropillar reveal CRSS...Nanoindentation Plasticity in complex phaseshttps://doi.org/10.48550/arXiv.2403.13432
https://doi.org/10.1016/j.matdes.2022.111504
https://doi.org/10.1016/j.mtla.2021.101237
The field is emptyNoNoThe field is emptyThe field is emptyThe field is empty
15 matthew-curmi The field is emptyThe field is emptyThe field is emptyThe field is emptyMaltaThe field is emptyhttps://www.linkedin.com/in/matthew-curmi-engineer/?originalSubdomain=mtThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
18 megan WG5The field is emptyThe field is emptyThe field is emptyAustriaThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
30 merve-g WG1, WG2, WG5Hacettepe UniversityDepartment of Nanotechnology and NanomedicineAsst. Prof.TurkeyThe field is emptyThe field is emptyThe field is emptyPolymers, Biomaterials, Tissue Engineering, Nanotechnology and Nanomedicine
My main research topics include polymeric biomaterials, tissue engineering, nanomedicine applications and cell-surface and bacteria-surface interactions.
polymer synthesis and characterization, nanoparticle synthesis and characterization, cell culture, antibacterial activities, biomaterial characterization tools (AFM, SEM, DLS etc.) https://doi.org/10.1016/j.actbio.2015.03.037
I would like to learn AI/machine learning integration to experimental data and improve nanoindendation/nanoforce research activitiesYesYespolymer synthesis and characterization, nanoparticle synthesis and characterization, cell culture, antibacterial activities, biomaterial characterization tools (AFM, SEM, DLS etc.) 7 daysanytime of year
13 mfhatta The field is emptyThe field is emptyThe field is emptyThe field is emptyIndonesiaThe field is emptyhttps://www.linkedin.com/in/mfakhryhatta/?originalSubdomain=frThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
48 michael-wurmshuber The field is emptyFAU Erlangen-NürnbergThe field is emptyThe field is emptyGermanyhttps://orcid.org/0000-0002-6639-4650https://www.linkedin.com/in/michael-wurmshuber-5306a1156/The field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
315 miljan-dasic WG2Institute of Physics BelgradeScientific Computing Laboratory, Center for the Study of Complex Systems, Institute of Physics Belgrade, Pregrevica 118, 11080 Belgrade, SerbiaAssistant Research ProfessorSerbiahttps://orcid.org/0000-0002-1739-0784https://www.linkedin.com/in/miljan-dai-455325255?utm_source=share&utm_campaign=share_via&utm_content=profile&utm_medium=android_appThe field is emptyapplied computational physics; molecular dynamics; normal dynamics; nanotribology; ionic liquidsMy key areas of research include nanotribology of ionic liquids and vanadium oxides, and the development and applications of the Normal Dynamics (ND) simulation method. My experties comes from my strong mathematical and progamming skills.- simulations - molecular dynamics - scientific software developmenthttps://doi.org/10.1016/j.triboint.2016.12.017I would like to learn DFT simulations.YesYesI could offer experties in molecular dynamics simulations and in scientific software development.1-3 monthsWinter/Summer
81 mohammed-tahir-abba WG2University of KasselUniversity of KasselPost-DocGermanyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
83 muhammad-muzammil MEMSkoç UniversityKoç UniversityPhD StudentTurkey0000-0002-3662-9279The field is emptyThe field is emptyMEMSFabrication and Characterization of MEMS stage for automated material testingThe field is emptyThe field is emptyThe field is emptyNoYesThe field is emptyThe field is emptyThe field is empty
11 mvassaux The field is emptyThe field is emptyThe field is emptyThe field is emptyFranceThe field is emptyhttps://www.linkedin.com/in/maxime-vassaux-86400159/?originalSubdomain=frThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
76 negar-mohtadifar IMAPUCLouvain-iMMCThe field is emptyPhD StudentBelgiumThe field is emptyThe field is emptyThe field is emptyFracture mechanics, Mechanical characterization, thin metallic sheetsThe field is emptyThe field is emptyThe field is emptyAdvanced characterization methods,Meso-scale simulation, Finite elements,In-situ testingNoNoThe field is emptyThe field is emptyThe field is empty
106 nqjummgfx xELHKtpNAHJZYRsCmuBKmyvLfJPHhAhscFKCIqfNuyEpWkThjRVflmHSfUMOhdWYRriWGTmsSXpngKWOmFiLygJQGBnfCLMmXkmCUSesPJQTNxDkbPbwECUlYxHAeWeLMSVhaxdTsPIHJCVNoNoAquPwbWOKpRBNkHTngVUjBHTocCpxObW
12 oleg-zabolotnyi The field is emptyAssociate prof of Applied Mechanics & Mechatronics Dep at Lutsk National Technical UniversityThe field is emptyThe field is emptyUkraineThe field is emptyhttps://www.linkedin.com/in/olegzabolotnyi/The field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
45 paul-mayrhofer 2TU WienThe field is emptyUniv.Prof.Austria0000-0001-7328-9333https://www.linkedin.com/in/paul-mayrhofer-20a2542a/The field is emptyPVD, protective coatings, ceramic-like, strength, toughnessThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
266 peter-dusan-ispanovity WG1, WG2, WG3, WG4ELTE Eötvös Loránd UniversityELTE Eötvös Loránd UniversityAssociate ProfessorHungary0000-0002-9956-0061The field is emptyThe field is emptymicromechanics, acoustic emission, HR-EBSD, dislocation dynamicsI'm mainly interested in collective dislocation phenomena such as dislocation avalanches and dislocation pattern formation. I perform micromechanical experiments coupled with various characterisation methods and perform dislocation dynamics simulations.Micromechanics, HR-EBSD, acoustic emissionIspánovity, P.D., Ugi, D., Péterffy, G. et al. Dislocation avalanches are like earthquakes on the micron scale. Nat Commun 13, 1975 (2022). https://doi.org/10.1038/I'd be interested in MD simulations.YesYesAs said above...The field is emptyThe field is empty
58 peter-j-konijnenberg WG4FZ-JuelichIAS-9Senior scientistNetherlands0000-0002-1278-4928The field is emptyThe field is emptyanalytical EM, ML, comp. MatSciApplication of ML tools in analytical electron microscopyMaterials scientist with a focus on 2D/3D (computational) microstructure characterization by analytical electron microscopy, applied crystallography, computational materials science and machine learninghttps://doi.org/10.1016/j.actamat.2015.06.051The field is emptyNoYesApplication of ML tools in analytical electron microscopyThe field is emptyThe field is empty
14 petr WG1Czech Technical UniversityDepartment of Materials, Faculty of Nuclear Sciences and Physical EngineeringProfessorCzech Republic https://orcid.org/0000-0002-2774-2456The field is emptyThe field is emptymaterials characterization, indentation, metallography, fractographyIndentation size effect, statistical treatment of indentation data with a focus on the role of the interface, identification of stress-strain relation by instrumented indentation, indenter tip blunting.Indentation (macro, micro, nano) - NHT MCT AntonPaar indenter, in-situ Alemnis indenter, Small punch test, ABIT, micro 3PB
Fractography, Metallography (SEM - JEOL IT500HR, EBSD - EDAX Velocity, EDS - EDAX Octane Elite, Confocal - Olympus Lext)
Petr Haušild (2021) On the breakdown of the Nix-Gao model for indentation size effect, Philosophical Magazine, 101:4, 420-434, DOI: 10.1080/14786435.2020.1841916The field is emptyYesYesLong term experience in materials characterization, indentation, metallography, and fractography. Access to our facilities as well as ideas exchange.The field is emptyThe field is empty
47 pinar-cakir-hatir WG1İstinye UniversityFaculty of Engineering & Natural SciencesAssociate ProfessorTürkiye0000-0002-3806-7118https://www.linkedin.com/in/pcakir/The field is emptyPolymers, nanotechnology, hydrogels, biomaterials, molecular imprintingThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
91 raul-nunes-simoes Experimental and simulation challengesUniversidade de AveiroUniversity of AveiroPhD StudentPortugal0000-0002-0301-7663www.linkedin.com/in/raul-simõesThe field is emptyCarbon dots; Nanocomposites; Recycled polymersCarbon dots; Nanocomposites; Recycled polymersNanocomposites; Polymers; Processing and Caracterization of polymers and nanocomposites.DOI: 10.1002/smll.202311526Nanocomposite polymersNoNohttps://smartplasticlabdemua.wordpress.com/The field is emptyThe field is empty
17 rohith The field is emptyThe field is emptyThe field is emptyThe field is emptyIsraelThe field is emptyhttps://www.linkedin.com/in/rohith-polisetty-05776132/?originalSubdomain=ilThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
53 romain-gautier WG1 and WG2UCLouvainThe field is emptyThe field is emptyBelgiumThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesThe field is emptyThe field is emptyThe field is empty
318 roxanaarmenta7 roxanaarmenta7roxanaarmenta7roxanaarmenta7roxanaarmenta7United Kingdomroxanaarmenta7roxanaarmenta7roxanaarmenta7roxanaarmenta7roxanaarmenta7roxanaarmenta7roxanaarmenta7roxanaarmenta7NoNoroxanaarmenta7roxanaarmenta7roxanaarmenta7
84 ruomeng-chen MicromechanicsIEK-2Forschungszentrum JülichPhD studentGermany0009-0002-7472-5891Ruomeng ChenThe field is emptymicrostructure, micromechanics, charaterization, alloy, machine learningI'm working on materials characterization (most on metals), focusing on microstructure and micromechanics. I'm also trying to combine machine learning with material characterization to better understand material properties.SEM, XRD, nanoindentation, scratch test, serial sectioning, coding10.1016/j.actamat.2017.11.024TEM, AFM, EBSD, AI-related topicYesYes3D microstructure reconstruction, nanoindentationThe field is emptyThe field is empty
33 sarac The field is emptyThe field is emptyThe field is emptyThe field is emptyTurkeyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
6 schaarj The field is emptyThe field is emptyThe field is emptyThe field is emptyGermanyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
9 sdassonneville WG5, WG1, WG2IM2NP, MarseilleAix Marseille Univ., Univ. Toulon, CNRS, IM2NP, Marseille, France Associate ProfessorFrance0000-0002-3951-2615https://www.linkedin.com/in/solene-comby-dassonneville/?locale=en_UShttps://www.researchgate.net/profile/Solene-Comby-DassonnevilleNanomechanical testing, electron microscopy, nano-objectsI focus on the mechanical behavior of materials at small scales. For this purpose, I use nanomechanical testing coupled with imaging techniques such as electron microscopy or X-ray diffraction.

In situ SEM nanoindentation/nanocompression (FemtoToolsNMT04) (displacement controlled), access a microscopy platform (electron microscpes -scanning and transmission-, FIB…)

S. Comby-Dassonneville, G. Tiphéne, A. Borroto, G. Guillonneau, L. Roiban, G. Kermouche, J.-F. Pierson, J.-L. Loubet, P. Steyer, Real-time high-temperature scanning indentation: Probing physical changes in thin-film metallic glasses, Applied Materials TodThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
90 sebastian-pfaller Capriccio groupFriedrich-Alexander-Universität Erlangen NürnbergInstitute of Applied MechanicsGroup leaderGermany0000-0001-8577-5048https://www.linkedin.com/in/sebastian-pfaller-073053254/The field is emptyMultiscale modelling, molecular dynamics, finite elements, polymers, polymer nanocompositesI am working on multiscale modelling and simulation of polymers, polymer nanocomposites, and other amorphous materials. Typical applications are numerical fracture mechanical experiments or the derivation of interphase properties.Simulations across scales, from atomistic to continuum descriptionshttps://doi.org/10.1016/j.compositesa.2022.107094 A quantitative interphase model for pol-ymer nanocomposites: Verification, validation, and consequences regarding size effectsFracture experiments of polymers, desirably enhanced by fine scale investigations, experimental investigation of interphase properties in polymer (nano)compositesYesYesComputation infrastructure available within the German NHR framework (upon idividual application)The field is emptyThe field is empty
8 sebastianbruns The field is emptyThe field is emptyThe field is emptyThe field is emptyGermanyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
93 simonschiassi simonschiassisimonschiassisimonschiassisimonschiassiNetherlandssimonschiassisimonschiassisimonschiassisimonschiassisimonschiassisimonschiassisimonschiassisimonschiassiNoNosimonschiassisimonschiassisimonschiassi
79 sina-zarepakzad MCLKoc universityKoc UniversityPhD CandidateTürkiye0000-0002-7029-4812https://www.linkedin.com/in/sina-zarepakzad/The field is emptyNanowires, Nanomechanics, Atomistic Modeling, Nanofabrication, Theoretical MechanicsThe field is emptyThe field is emptyhttps://pubs.acs.org/doi/full/10.1021/acsanm.3c02077The field is emptyNoYesThe field is emptyThe field is emptyThe field is empty
80 stanislav-zak WG1, WG2Erich Schmid Institute of Materials Science, Austrian Academy of SciencesErich Schmid Institute of Materials SciencePost-docAustria0000-0003-1329-8072The field is emptyThe field is emptyFinite element modelling, Nanoindentation, Fracture mechanics, Thin films, AdhesionThe key area of my research is to combine numerical (Finite Element) modelling with experimental techniques. Exploring phenomena not accesible by experiments. Including nanoindentation, thin film behavior and adhesion and special materials combination.Nanoindentation, numerical modelling (Abaqus/Ansys), large data analysis, thin film adhesion and mechanical properties measurement, fracture mechanicsS. Zak, A. Lassnig, M. Hrstka, M.J. Cordill, Buckling-induced delamination: Connection between mode-mixity and Dundurs parameters, Theoretical and Applied Fracture Mechanics, Volume 122, 2022, 103647, ISSN 0167-8442, DOI: 10.1016/j.tafmec.2022Different methods to test thin films mechanical properties and adhesion, implementation of complex, user-defined material models within FEM softwareYesYesAdvanced numerical modelling of micro-scale experiments, thin films nanoindentation, understanding of the changes in nanoindenter tip radius during the experimentsThe field is emptyThe field is empty
23 stefan WG4The field is emptyThe field is emptyThe field is emptyGermanyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
57 steffen-brinckmann The field is emptyForschungszentrum JuelichThe field is emptyThe field is emptyGermany0000-0003-0930-082XThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesYesnanoindentation, ELNsThe field is emptyThe field is empty
59 szilvia-kalacska WG1, WG2CNRS, LGF MINES St. EtienneCNRSResearcher (CR)France0000-0001-5601-5859The field is emptyThe field is emptymicromechanics, hydrogen embrittlement, extreme conditions; microstructure characterizationThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
3 tamara WG5Faculty of Mechanical Engineering and Naval ArchitectureCenter of Technology Transfer, Faculty of Mechanical Engineering and Naval ArchitectureDirectorCroatia0000-0003-3386-9100https://www.linkedin.com/in/tamara-aleksandrov-fabijani%C4%87-ba89983a/The field is emptymaterial science, nanostructured hardmetals, mechanical properties, metrologyScientific interest and field of activity are nanomaterials - nanostructured hard metals. As part of Ph.d. thesis, hardness reference materials with improved metrological characteristics were developed using nanopowders. In addition to developing innovatiLaboratory for Powder Metallurgy - development of new materials from powders - Laboratory for Testing Mechanical PropertiesInfluence of consolidation process and sintering temperature on microstructure and mechanical properties of near nano- and nano-structured WC-Co cemented carbides, International Journal of Refractory Metals & Hard Materials
2016 | Journal article
DOI:
Instrumented indentation test, Scratch test, Vickers hardness, Rockwell hardness, Tensile test, Preparation of powder mixtures prior to consolidation by sinteringYesYesThe field is emptyThe field is emptyThe field is empty
92 theo-zacharis WG5 (pending)Greek Scientists SocietyGreek Scientists SocietyInnovation & Strategy AdvisorGreecehttps://orcid.org/0009-0004-9429-0383https://www.linkedin.com/in/theo-zacharis/The field is emptyInnovation, Dissemination, Exploitation, ValorisationThe field is emptyThe field is emptyThe field is emptyI am an Innovation & Strategy Advisor dealing with tech transferNoYesThe field is emptyThe field is emptyThe field is empty
95 thomas-chudoba Experimental and simulation challengesASMEC GmbHASMEC GmbHManaging DirectorGermany0000-0002-5345-8598https://www.linkedin.com/in/thomas-chudoba-a8a36a17/https://www.researchgate.net/profile/T-ChudobaNanoindentation, Nanomechanics, Instrumentation, Scratch test, TribologyDevelopment of nano- and microindentation instruments and methods, developement and application of test methods for the mechanical surface characterization especially for coating properties, tribological investigations, scratch testsApplication lab with own nano- and microindentation instruments, development of new test methods and applications, programming of analysis software for measurement data as well as for contact mechanical simulations.Higher accuracy analysis of instrumented indentation data obtained with pointed indenters, October 2008, Journal of Physics D: Applied Physics 41(21):215407 DOI: 10.1088/0022-3727/41/21/215407All types of measurements you can do with a nanoindenter.YesYesAll types of mechanical surface characterization from nano to macro1 - 14The field is empty
94 tobias WG2RWTH Aachen IMMThe field is emptyPhD StudentGermany0000-0003-4356-7376The field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesThe field is emptyThe field is emptyThe field is empty
24 tortic -The field is emptyThe field is emptyThe field is emptyCroatiaThe field is emptyhttps://www.linkedin.com/in/domagoj-torti%C4%87-281a92258/The field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
22 ulrich WG3The field is emptyThe field is emptyThe field is emptyGermanyThe field is emptyhttps://www.linkedin.com/in/ulrich-kerzel-96863275/?originalSubdomain=deThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
82 umut-kerimzade WG1Koç UniversityThe field is emptyResearch Assistant ProfessorTurkeyThe field is emptyThe field is emptyThe field is emptyMicro- and nano-electromechanical systemsThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
73 vanpee-sophie The field is emptyUCLouvainThe field is emptyPhD candidateBelgiumThe field is emptyhttps://www.linkedin.com/in/sophie-vanpee-b6663b199/The field is emptyPolymer, composite, processing conditions, mechanical properties, multi-scale approachThe field is emptyMaterials engineeringThe field is emptyThe field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
316 vera-obradovic WG1, WG2Innovation Center of Faculty of Technology and Metallurgy in Belgrade4, Karnegijeva Street, 11120 BelgradeSenior Research AssociatSerbia0000-0001-5653-5926Nohttps://www.researchgate.net/profile/Vera-ObradovicMaterials engineering. Composite materials. NanotechnologyThe field is emptyThe field is emptyThe field is emptyThe field is emptyNoYesThe field is emptyThe field is emptyThe field is empty
21 verena WG2The field is emptyThe field is emptyThe field is emptyAustriaThe field is emptyhttps://www.linkedin.com/in/verena-maier-kiener-6226918/?originalSubdomain=atThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
7 vermarits The field is emptyThe field is emptyThe field is emptyThe field is emptyCzech RepublicThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
71 volker-hofmann WG3Forschungszentrum JülichInstitute Materials Data Science and InformaticsThe field is emptyGermany0000-0002-5149-603XThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is empty
96 vonnierucker vonnieruckervonnieruckervonnieruckervonnieruckerNorwayvonnieruckervonnieruckervonnieruckervonnieruckervonnieruckervonnieruckervonnieruckervonnieruckerNoNovonnieruckervonnieruckervonnierucker
63 wiktor-bednarczyk WG2Warsaw University of TechnologyThe field is emptyAssistant ProfessorPoland0000-0003-0001-1693www.linkedin.com/in/wiktor-bednarczyk-phd-b1a967124The field is emptyzinc alloys, micro-pillars, nanoindentation, strain rate jump testsThe field is emptyThe field is emptyBednarczyk W. et al. Determination of critical resolved shear stresses associated with slips in pure Zn and Zn-Ag alloys via micro-pillar compression, Materials & Design, Volume 229, 2023, 111897, https://doi.org/10.1016/j.matdes.2023.111897The field is emptyYesYesThe field is emptyThe field is emptyThe field is empty
89 xufei-fang WG1 & WG2Institute for Applied MaterialsKarlsruhe Institute of TechnologyGroup LeaderGermany0000-0002-3887-0111https://www.linkedin.com/in/xufei-fang-dr-172b87bb/The field is emptyDislocations in ceramics; Hydrogen micromechanics; Nanoindentation; Defect chemistry; Fracture mechanicsCurrently mainly focusing on dislocations in ceramics, using 1D defects dislocations as an engineering tool to turn both mechanical and physical properties in ceramics at room and elevated temperatures. Meanwhile also working on hydrogen embrittlement.Dislocations; Nanoindentation (G200, PI89), etc.https://ceramics.onlinelibrary.wiley.com/doi/full/10.1111/jace.19362 (DOI: 10.1111/jace.19362)Helping to put dislocations in ceramics into application, e.g., damage-tolerant ceramics or dislocation-based functional/electronic devices.YesYesDislocation-related studies in oxides, and ceramics, at room/elevated temperatures, across the length scales.1-12 monthsFlexible.
75 yarden The field is emptyTechnion - Israel Institute of TechnologyThe field is emptyGraduate studentIsraelThe field is emptyThe field is emptyThe field is emptyFe-Pd, Nanoparticles, Nano-indentation, Order-Disorder, Mechanical PropertiesThe field is emptyThe field is emptyThe field is emptyThe field is emptyThe field is emptyYesThe field is emptyThe field is emptyThe field is empty

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